This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
Manuals and Reports on Engineering Practice No. 98
Conveyance ofResiduals from Water
and WastewaterTreatment
Sludge Treatment, Utilization, Reclamation,and Disposal Committee of the
Environmental and Water Resources Institute of theAmerican Society of Civil Engineers
Published by
American Societyof Civil Engineers
1801 Alexander Bell DriveReston, Virginia 20191 -4400
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
Abstract: The treatment of water and wastewater results in the production of residual solids thatmust be handled. These solids typically are concentrated to reduce the water content beforetheir beneficial use or disposal. As these solids are further processed and handled, their intrinsicproperties—such as viscosity, rheology, flowability, and texture—change. Although much asbeen written to describe the chemical characteristics of these residuals, only limited informationhas been complied describing their handling characteristics and appropriate means of trans-port. The objective of this manual is to provide a reference document that the practitioner canuse to determine the handling characteristics of residuals and to select appropriate conveyancesystems.
The monograph has been organized into nine chapters. Chapter 1 provides an overview ofthe manual and describes a procedure for classifying residuals according to their transportproperties. Chapter 2 describes the rheology, the types of water associated with the solids, andtransport properties. Chapter 3 discusses the composition and characteristics of residuals as afunction of how they are generated. Chapter 4 provides a comprehensive compilation of thetypes of equipment available for residuals transport, with photographs and illustrations. Chap-ters 5 through 8 provide guidance on the type of equipment that can be used for each of themajor classifications of residuals: non-Newtonian slurries, thickened residuals, dewateredresiduals, and granular and compactable residuals. Chapter 9 presents four case studies, high-lighting lessons learned from actual operating installations.
Library of Congress Cataloging-in-Publication Data
Conveyance of residuals from water and wastewater treatment / Sludge Treatment, Utilization,Reclamation, and Disposal Committee of the Environmental and Water Resources Institute ofthe American Society of Civil Engineers.
p. cm.—(ASCE manuals and reports on engineering practice; no. 98)Includes bibliographical references and index.ISBN 0-7844-0438-01. Sewage sludge—Management. 2. Sewage sludge—Characterization. 3. Sewage dis-
posal plants—Design and construction. I. American Society of Civil Engineers. Sludge Treat-ment, Utilization, Reclamation, and Disposal Committee. II. Series.TD767.C667 2000628.3'64—dc21 99-059471
The material presented in this publication has been prepared in accordance with generallyrecognized engineering principles and practices, and is for general information only. This infor-mation should not be used without first securing competent advice with respect to its suitabilityfor any general or specific application.
The contents of this publication are not intended to be and should not be construed to be astandard of the American Society of Civil Engineers (ASCE) and are not intended for use as a ref-erence in purchase of specifications, contracts, regulations, statutes, or any other legal document.
No reference made in this publication to any specific method, product, process, or serviceconstitutes or implies an endorsement, recommendation, or warranty thereof by ASCE.
ASCE makes no representation or warranty of any kind, whether express or implied, con-cerning the accuracy, completeness, suitability, or utility of any information, apparatus, product,or process discussed in this publication, and assumes no liability therefore.
Anyone utilizing this information assumes all liability arising from such use, including butnot limited to infringement of any patent or patents.
Photocopies: Authorization to photocopy material for internal or personal use under circum-stances not falling within the fair use provisions of the Copyright Act is granted by ASCE tolibraries and other users registered with the Copyright Clearance Center (CCC) TransactionalReporting Service, provided that the base fee of $8.00 per chapter plus $.50 per page is paiddirectly to CCC, 222 Rosewood Drive, Danvers, MA 01923. The identification for ASCE Books is0-7844-0438-0/00/$8.00 + $.50 per page. Requests for special permission or bulk copying shouldbe addressed to Permissions & Copyright Department, ASCE.
Copyright © 2000 by the American Society of Civil Engineers.All Rights Reserved.Library of Congress Catalog Card No: 99-059471ISBN 0-7844-0438-0Manufactured in the United States of America
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
MANUALS AND REPORTSON ENGINEERING PRACTICE
(As developed by the ASCE Technical Procedures Committee, July 1930,and revised March 1935, February 1962, and April 1982)
A manual or report in this series consists of an orderly presentation offacts on a particular subject, supplemented by an analysis of limitationsand applications of these facts. It contains information useful to the aver-age engineer in his everyday work, rather than the findings that may beuseful only occasionally or rarely. It is not in any sense a "standard," how-ever; nor is it so elementary or so conclusive as to provide a "rule ofthumb" for nonengineers.
Furthermore, material in this series, in distinction from a paper (whichexpressed only one person's observations or opinions), is the work of acommittee or group selected to assemble and express informaton on a spe-cific topic. As often as practicable the committee is under the direction ofone or more of the Technical Divisions and Councils, and the productevolved has been subjected to review by the Executive Committee of theDivision or Council. As a step in the process of this review, proposedmanuscripts are often brought before the members of the Technical Divi-sions and Councils for comment, which may serve as the basis forimprovement. When published, each work shows the names of the com-mittees by which it was compiled and indicates clearly the several pro-cesses through which it has passed in review, in order that its merit may bedefinitely understood.
In February 1962 (and revised in April 1982) the Board of Directionvoted to establish:
A series entitled "Manuals and Reports on Engineering Prac-tice," to include the Manuals published and authorized to date,future Manuals of Professional Practice, and Reports on Engi-neering Practice. All such Manual or Report material of theSociety would have been refereed in a manner approved by theBoard Committee on Publications and would be bound, withapplicable discussion, in books similar to past Manuals. Num-bering would be consecutive and would be a continuation ofpresent Manual numbers. In some cases of reports of joint com-mittees, bypassing of Journal publications may be authorized.
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
MANUALS AND REPORTSOF ENGINEERING PRACTICE
No. Title No. Title13 Filtering Materials for Sewage
Treatment Plants14 Accommodation of Utility Plant
Within the Rights-of-Way of UrbanStreets and Highways
35 A List of Translations of ForeignLiterature on Hydraulics
40 Ground Water Management41 Plastic Design in Steel: A Guide and
Commentary45 Consulting Engineering: A Guide for
the Engagement of EngineeringServices
46 Pipeline Route Selection for Rural andCross-Country Pipelines
47 Selected Abstracts on StructuralApplications of Plastics
49 Urban Planning Guide50 Planning and Design Guidelines for
Small Craft Harbors51 Survey of Current Structural Research52 Guide for the Design of Steel
Transmission Towers53 Criteria for Maintenance of Multilane
Highways55 Guide to Employment Conditions for
Civil Engineers57 Management, Operation and
Maintenance of Irrigation andDrainage Systems
59 Computer Pricing Practices60 Gravity Sanitary Sewer Design and
Construction62 Existing Sewer Evaluation and
Rehabilitation63 Structural Plastics Design Manual64 Manual on Engineering Surveying65 Construction Cost Control66 Structural Plastics Selection Manual67 Wind Tunnel Studies of Buildings and
Structures68 Aeration: A Wastewater Treatment
Process69 Sulfide in Wastewater Collection and
Treatment Systems70 Evapotranspiration and Irrigation
Water Requirements71 Agricultural Salinity Assessment and
Management
72 Design of Steel Transmission PoleStructures
73 Quality in the Constructed Project: AGuide for Owners, Designers, andConstructors
74 Guidelines for Electrical TransmissionLine Structural Loading
76 Design of Municipal WastewaterTreatment Plants
77 Design and Construction of UrbanStormwater Management Systems
78 Structural Fire Protection79 Steel Penstocks80 Ship Channel Design81 Guidelines for Cloud Seeding to
Augment Precipitation82 Odor Control in Wastewater
Treatment Plants83 Environmental Site Investigation84 Mechanical Connections in Wood
Structures85 Quality of Ground Water86 Operation and Maintenance of
Ground Water Facilities87 Urban Runoff Quality Manual88 Management of Water Treatment
Plant Residuals89 Pipeline Crossings90 Guide to Structural Optimization91 Design of Guyed Electrical
Transmission Structures92 Manhole Inspection and
Rehabilitation93 Crane Safety on Construction Sites94 Inland Navigation: Locks, Dams, and
Channels95 Urban Subsurface Drainage96 Guide to Improved Earthquake
Performance of Electric PowerSystems
97 Hydraulic Modeling: Concepts andPractice
98 Conveyance of Residuals from Waterand Wastewater Treatment
99 Environmental Site Characterizationand Remediation Design Guidance
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
CONTENTS
Foreword ix
Acknowledgments x
1 INTRODUCTION 1Purpose 1Scope 2Contents of the Manual 3Description of the Classified Residuals 4Equipment Used in Processing Residuals 8Evaluation of Alternative Conveyance Methods 12References 12
2 RHEOLOGY AND THE DISTRIBUTION OF WATER IN SLUDGE . . . . 13Introduction 13Distribution of Water 13Bound Water in Sludge 16Sludge Rheology 20
Newtonian Fluids 21Non-Newtonian Fluids 22
Identification of Rheological Behavior of Wastewater Sludges 25Theoretical Approach To Define Suspension Viscosity, and Its
Applicability to Water and Wastewater Sludges 27Conclusion 30References 30
3 SLUDGE SOURCES, COMPOSITION, AND CHARACTERISTICS . . . . 33Introduction 33Wastewater Sludge: Source, Composition, and Quantity 33
Primary Sludge 33Secondary Sludge 34
Wastewater Sludge Characteristics 37Physical Properties 38Primary Sludge 39
v
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
vi CONVEYANCE OF RESIDUALS FROM WATER & WASTEWATER TREATMENT
Secondary Sludge 39Mixed Sludges 40
Effects of Chemical Precipitation 40Primary Sludge 40Secondary Sludge 40
Effects of Chemical Conditioning 41Primary Sludge 41Secondary Sludge 41Mixed Sludge 41
Effects of Anaerobic and Aerobic Digestion 42Anaerobic Digestion 42Aerobic Digestion 42
Effect of Thermal Conditioning 43Water Treatment Plant Residuals 44
Sources and Quantities 44Characteristics 46Effect of Various Processes 47
References 49
4 OVERVIEW OF RESIDUALS CONVEYANCE DEVICES 51Introduction 51Centrifugal Pumps 51
Non-Clog Pumps 52Recessed Impeller Pumps 53Combination Screw/Centrifugal Pumps 55Disc Pumps 56
Positive Displacement Pumps 58Progressing Cavity Pumps 58Plunger Pumps 61Hydraulically Driven Piston (Ram) Pumps 62Rotary Pumps 66Peristaltic Pumps 68Diaphragm Pumps 70
Conveyor Systems 73Belt Conveyor 73Chain Conveyor 77Bucket Elevators 82Screw Conveyor 85Shaftless/Ribbon 87Pneumatic 87
References 89
5 PUMPING OF NON-NEWTONIAN SLUDGES AND SLURRIES 91Introduction 91Head Losses in Pumped Systems: 3-12% TS 94Head Losses in Pumped Systems: 20-30% TS 102
Field Pumping Studies 102References 105
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
CONTENTS vii
6 TRANSPORT OF THICKENED RESIDUALS 107Introduction 107Applicability 107
Definition and Sources of Thickened Residuals 107Cross-Reference Chart 108
Pumping Equipment 108Pumping Considerations 109Centrifugal Pumps 109Positive Displacement Pumps 1llOther Kinds of Pumps 114
Transport Equipment 115Belt Conveyors 115Screw Conveyors 115
Bulk Transport Equipment 116Truck 116Train 116Ship 116
Equipment Selection 117Preferred Equipment 117Design Concerns 119
References 120
7 CONVEYANCE OF DEWATERED RESIDUALS 123Introduction and Scope 123Rationale for Classification of Dewatered Residuals 124
Low to Medium Viscosity 124Medium to High Viscosity 125
Ranking the Conveyance Alternatives 126Rationale 126Problems 129Other Considerations for Selection 129
Pumping Viscous Sludges and Slurries 130Conveying Systems 130Pipeline Lubrication for Head-Loss Control 132Pipeline Design 136
Transporting Low- to Medium-Viscosity Residuals 137Belt Conveyors 137Screw Conveyors 138Progressing Cavity Pump 138HDP or Ram Pump 139Pneumatic Conveyor 140Dump Truck or Container 140
Transporting Medium- to High-Viscosity Residuals 140Belt Conveyors 140Screw Conveyors 141Progressing Cavity Pumps 141HDP or Ram Pumps 142Pneumatic Transport 142
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
viii CONVEYANCE OF RESIDUALS FROM WATER & WASTEWATER TREATMENT
Dump Truck or Container 143Summary 143References 143
8 TRANSPORT OF GRANULAR AND COMPACTABLE RESIDUALS.. 145Introduction 145Application and Classification of Compactable and Granular Residuals .. 145
Definition of Compactable Residuals 145Definition of Granular Residuals 146
Transport Equipment Recommended for Compactable Solids 147Shaftless and Ribbon Screw Conveyors 147Drag Conveyors 151Belt Conveyors: Conventional, Sidewall, Cleated, Pinch 151
Transport Equipment Not Recommended for Compactable Solids 153Bucket Elevators 153Conventional Screws 153Pumps 154
Transport Equipment Recommended for Granular Solids 154Screw Conveyors 154Belt Conveyors 156Bucket Elevators 157Pneumatic Conveyance 158Drag Conveyors 160
Transport Equipment Not Recommended for Granular Solids 161Pumps 161
Equipment Selection and Recommendations 161Testing 161Operational Considerations 161Potential Problems and Risks 162Recommendations 163
9 CASE HISTORIES 165Overview 165Philadelphia Water Department: Liquid Sludge Transport 165
Shore Facilities 167Biosolids Barges 167Cargo Handling 168Electrical Requirements 169
Cape May County Municipal Utilities Authority: Cake Conveyors 169Passaic Valley Sewerage Commissioners: Dewatered Cake Conveyance.. 170Lower Potomac Pollution Control Plant: Cake Pumping 173References 177
Index 179
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
FOREWORD
In 1992, a brief article appeared in the Forum section of the Journal ofEnvironmental Engineering that discussed problems related to the transportof dewatered sludge. The comments received on the article were transmit-ted to the Sludge Treatment, Reclamation, and Disposal Committee. Whenthe committee reviewed them, it was obvious that practicing engineersdid not understand the rheology of various treatment plant residuals andtransport problems associated with sludge management. The committeemembers decided to create a state-of-the-art document that could be usedby practicing engineers and academicians to ensure an understanding ofthe complexities in transporting water and wastewater residuals.
Residual management is one of the most critical aspects of wastewaterand water treatment. From the first settling tank to final disposal, the pro-cess residuals may be transported by a variety of pumps, conveyors, andother material-handling devices. The residuals change in concentrationand composition at various times throughout the sludge processing sys-tem. This changes the rheology and transport characteristics. If thesechanges are not recognized, problems can result in the transport of thesematerials.
This manual is intended to provide information to design and practic-ing engineers who ensure that the device used to transport the residuals iscompatible with the changing characteristics. The manual is composed ofnine chapters: Introduction; Rheology and the Distribution of Water inSludge; Sludge Sources, Composition, and Characteristics; Overview ofResiduals Conveyance Devices; Pumping of Non-Newtonian Sludges andSlurries; Transport of Thickened Residuals; Conveyance of DewateredResiduals; Transport of Granular and Compactable Residuals; and CaseHistories.
We hope that everyone who uses this manual will find the informationcontained in it useful and that we have ensured that engineers will under-stand the complexities of transport of various types of residuals.
ix
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
ACKNOWLEDGMENTS
The members of the American Society of Civil Engineers (ASCE)Sludge Processing, Reclamation, and Disposal Committee responsible forwriting this manual were Orris Albertson, Robert Okey, Paul Bizier, Tho-mas Sadick, Jeanette Semon Brown, Carl Koch, Doug Noffsinger, WilliamHolloway, Aarne Vesilind, Dilek Sarnin, and James E. Smith, Jr. Theauthors thank the following people for assistance in producing this docu-ment and contributing to the chapter on case studies: Gary Kroll, SheldonLipske, William Cathcart, Mannley Solheim, Leonard Bernstein, and Rob-ert Menke. Special credits are given to Orris Albertson, who served as theeditor, and to his secretary, Teresa Johnson, who provided invaluableassistance in preparing the manuscript. Furthermore, the authors thankthe following members of the ASCE Blue Ribbon panel for their insightfulcomments that helped us produce what we hope will be a very useful doc-ument for both practicing engineers and academicians: Bruce Burris, G.Lee Christensen, James Nicolo, Timothy Shea, and James E. Smith, Jr.
x
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
Chapter 1
INTRODUCTION
PURPOSE
The treatment of water and wastewater produces a significant quantityof residual suspended solids that must be further processed prior touse/disposal. Invariably, the processing stages involve the separation ofliquids from the suspended solids and, in doing so, change the character-istics of the residual matter. Furthermore, processing can change a sol-ids/water mixture (sludge/slurry) to cakes of high viscosity and, ulti-mately, to minimal moisture (dried) at the ultimate solids concentration.
The purpose of this monograph is not to present the means of achievingvarious levels of solids concentration; rather, it is to define operable andefficient means of conveying the residuals from one point to another in thesolids processing system. Another objective is to classify the solids withvarying states of moisture content in a manner such that the appropriateequipment can be selected to transport the residuals for additional pro-cessing/disposal.
Whereas there is a need to classify the sludge/slurry and solids anddefine the range of solids concentration, there always will be areas wherethe classification overlaps. This transitional area is of most concern, andthe user must be aware of potential problems when operating in the tran-sitional areas because of significant changes in transport characteristics.Site-specific factors may prevent the level of solids from reaching the nexthigher classification, where a significant change in product handling char-acteristics occurs. Furthermore, the material classification may vary fromone classification to another at a specific site because the waste materialsare processed by different kinds of equipment.
To assist in understanding the complex handling characteristics ofmany wastewater residuals, a discussion of bound water has beenincluded. The bound water fraction has a significant impact on the physi-
1
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.
2 CONVEYANCE OF RESIDUALS FROM WATER & WASTEWATER TREATMENT
cal characteristics of water and waste water residuals. The variable quan-tity of bound water in biological and metal hydroxide sludges often hasbeen the cause of dewatering and solids transport problems. Review ofthis section is critical to the understanding and use of subsequent portionsof this publication.
SCOPE
The residuals addressed in this publication are those derived from thetreatment of municipal water and wastewater. Both suspended matter andbiological residues, which are very similar to those derived from municipalwastewater, are produced in industrial wastewater treatment. However,solids recovered from primary treatment of industrial wastewater willreflect the constituents used in the industrial facility. The user must deter-mine whether these solids are similar to the residues described herein.
The residuals are classified into levels of concentrations that reflect thepoints where there are definable changes in the physical properties of thematerial. The range of solids concentration discussed is from thickenedresiduals in a solids/liquid mixture to a point where the residuals willemit dust when handled or transported, and the dust could represent ahazardous condition.
The residual concentrations discussed represent the products of con-centrating, dewatering, and drying equipment in common practice. Theseresiduals are sorted into five classifications:
Residual ClassificationThickened sludge AThixotropic cake, low range BlThixotropic cake, high range B2
Granular, moist QGranular, dusty C2
The specific equipment that produces the residuals to be conveyed willnot be discussed in this manual, except to define any operating factors thatcould affect the transport characteristics.
This publication provides three levels of recommendations:
1. not recommended2. recommended for consideration3. recommended
Wherever possible, the factors that could affect the selection of equipmentwith a conditional recommendation (consideration) will be explained.
This is a preview of "ASCE MOP 98-2000". Click here to purchase the full version from the ANSI store.